In the context of additive manufacturing we present a novel technique for direct slicing of a dilated or eroded volume, where the input volume boundary is a triangle mesh. Rather than computing a 3D model of the boundary of the dilated or eroded volume, our technique directly produces its slices. This leads to a computationally and memory efficient algorithm, which is embarrassingly parallel. Contours can be extracted under an arbitrary chord error, non-uniform dilation or erosion are also possible. Finally, the scheme is simple and robust to implement
All additive manufacturing processes involve a distinct preprocessing stage in which a set of instr...
The paper presents a novel slicing based method for computation of volume fractions in multi-materia...
Slicing a model (computing thin slices of a geometric or volumetric model with a sweeping plane) is ...
Even though additive manufacturing is receiving increasing interest from aerospace, automotive, and ...
abstract: A method has been developed that employs both procedural and optimization algorithms to ad...
Additive Manufacturing, also known as 3D printing, is a process based on the addition of sucessive l...
An adaptive slicing algorithm that can vary the layer thickness in relation to local geometry is pre...
Aiming at the problems of over stacking, warping deformation and rapid adjustment of layer thickness...
The development of methods for storing, manipulating, and rendering large volumes of data efficientl...
Various industries have embraced 3D printing for manufacturing on-demand, custom printed parts. Howe...
Additive manufacturing is becoming increasingly popular because of its unique advantages, especially...
Complex 3D objects with microstructures can be modelled using the function representation (FRep) app...
Medical imaging from CT and MRI scans has become essential to clinicians for diagnosis, treatment pl...
This thesis proposes an approach to provide a visually realistic interactive simulation of the effec...
Robotic wire-feed additive manufacturing technology is possible to directly fabricate metallic over...
All additive manufacturing processes involve a distinct preprocessing stage in which a set of instr...
The paper presents a novel slicing based method for computation of volume fractions in multi-materia...
Slicing a model (computing thin slices of a geometric or volumetric model with a sweeping plane) is ...
Even though additive manufacturing is receiving increasing interest from aerospace, automotive, and ...
abstract: A method has been developed that employs both procedural and optimization algorithms to ad...
Additive Manufacturing, also known as 3D printing, is a process based on the addition of sucessive l...
An adaptive slicing algorithm that can vary the layer thickness in relation to local geometry is pre...
Aiming at the problems of over stacking, warping deformation and rapid adjustment of layer thickness...
The development of methods for storing, manipulating, and rendering large volumes of data efficientl...
Various industries have embraced 3D printing for manufacturing on-demand, custom printed parts. Howe...
Additive manufacturing is becoming increasingly popular because of its unique advantages, especially...
Complex 3D objects with microstructures can be modelled using the function representation (FRep) app...
Medical imaging from CT and MRI scans has become essential to clinicians for diagnosis, treatment pl...
This thesis proposes an approach to provide a visually realistic interactive simulation of the effec...
Robotic wire-feed additive manufacturing technology is possible to directly fabricate metallic over...
All additive manufacturing processes involve a distinct preprocessing stage in which a set of instr...
The paper presents a novel slicing based method for computation of volume fractions in multi-materia...
Slicing a model (computing thin slices of a geometric or volumetric model with a sweeping plane) is ...